1. Enhanced wound-healing performance of a phyto-polysaccharide-enriched dressing - a preclinical small and large animal study
   Chih-Hsin Wang et al, 2017, Int Wound J CrossRef
2. Morphine Efficacy, Tolerance, and Hypersensitivity Are Altered After Modulation of SUR1 Subtype KATP Channel Activity in Mice
   Cole Fisher et al, 2019, Front. Neurosci. CrossRef
3. Manganese Induced Nervous Injury by α-synuclein Accumulation via ATP-sensitive K(+) channels and GABA Receptors
   Yi Sun et al, 2020, Toxicology Letters CrossRef
4. Regulation of the KATP-JNK gap junction signaling pathway by immunomodulator astragaloside IV attenuates neuropathic pain
   Wen-Ling Dai et al, 2020, Reg Anesth Pain Med CrossRef
5. ATP-sensitive potassium channels in pain and analgesia
   Taís de Campos Lima et al, 2022 CrossRef
6. SUMOylation of Kir7.1 participates in neuropathic pain through regulating its membrane expression in spinal cord neurons
   You‐You Lv et al, 2022, CNS Neurosci Ther CrossRef
7. Targeting the chemokine ligand 2–chemokine receptor 2 axis provides the possibility of immunotherapy in chronic pain
   Shan Liu et al, 2023, European Journal of Pharmacology CrossRef
8. Anti-neuropathic Pain Mechanistic Study on A. conyzoides Essential Oil, Precocene II, Caryophyllene, or Longifolene as Single Agents and in Combination with Pregabalin
   Y. Purwandi Sukmawan et al, 2023, CNSNDDT CrossRef
9. Astrocytes and Microglia in Chronic Postsurgical Pain
   Afang Zhu et al, 2024 CrossRef
10. Preclinical Insights into the Role of Kir4.1 in Chronic Pain and Depression: Mechanisms and Therapeutic Potential
    Tingfeng Zha et al, 2025, Biomolecules CrossRef
11. Activation of KATP channels in pain modulation: a systematic review of preclinical studies
    Signe Schønning Beich et al, 2025, Front. Physiol. CrossRef